RU2237958C2 - Multiphase-enclosed outdoor high-voltage switchgear - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: switchgear has horizontally mounted power circuit breakers accommodated in tubular cases, each case having junction flanges on ends to connect next enclosed base modules such as deflecting modules that function to deflect current leads of power circuit breaker interrupting units to branching lines. Among such enclosed base modules there may be angular branching modules with respective outdoor bushing insulators as well as disconnecting switch and ground switch modules. When use is made of deflecting modules that function to horizontally deflect current circuit by 90 deg., H-circuits may be disposed so that all modules will be arranged in horizontal plane.

EFFECT: enhanced adaptability, reduced mounting height.

23 cl, 18 dwg

Description

The invention relates to the field of electric energy distribution and can be used in the design of a multiphase closed gas-insulated high-voltage switchgear for outdoor installation, in which the connected connections are branched on both sides underneath the lying or, respectively, horizontal case of the circuit breaker containing the breaker blocks of the power switch angle to the longitudinal axis of the switch housing. In the case of these line connections, we can talk about overhead line inputs, cable connections or busbar connections.

In a known high-voltage switchgear of this type, interrupting units are located in a tubular housing, which can be divided in the middle and which is equipped at its ends with nozzles extending across the axis of the housing, each nozzle accommodating an outlet connected to the corresponding pole of the interrupting unit. In addition, a tubular part adjoins each branch pipe, in which a disconnector and, if necessary, an earthing switch are located. Around the nozzles, respectively, is a current transformer. Between the nozzles and adjacent tubular parts, a voltage transformer can be further provided. Finally, a cable terminator should be installed at the end of each tubular part as an outdoor bushing. These cable terminators form an important part of the inlet and outlet lines, and they enclose an acute angle between themselves. In this high-voltage switchgear, the circuit-breaker case is closed on its one end side by a mounting cover, while at the opposite end there is a drive for moving parts of the interrupt units. The drive device is also fixed on the frame, on which the switch housing is also installed (EP 0744758 A2).

For single-phase closed high-voltage switchgears of an outdoor installation, a device is known in which a reclining tubular enclosed housing that contains a breaker unit of a circuit breaker is assigned on both sides a single bushing of the outdoor installation located on a separate foundation, and in which to connect the corresponding bushing of the outdoor installation installation on the front side of the closed housing is installed passing obliquely to the axis of this closed housing dr goy closed case (DE-U 9417477.6). In another known single-phase closed high-voltage switchgear for outdoor installation, three electrically and mechanically connected to each other distribution blocks are arranged in series or parallel to each other. At the same time, the enclosed housing modules adjacent to both sides of the end sides of the current transformer carrying closed current transformers are assigned to the closed casing of each power switch, which is respectively adjacent to the disconnector, which deflects the current circuit vertically. The adjacent disconnector modules of the two distribution blocks are interconnected via an additional module, namely, either through a closed housing module that carries the outdoor bushing or through a linear connection that is connected to the outdoor bushing. An outdoor bushing (DE 2929054 A1) is installed at both ends of the three distribution blocks connected in succession, respectively, directly on the isolation module.

Based on the multiphase closed gas-insulated high-voltage switchgear of the outdoor installation with the signs of the restrictive part of paragraph 1 of the claims, the invention is based on the task to make the switchgear mutable and at the same time provide the smallest overall height.

To solve this problem, according to the invention, it is provided that the drive device for inputting drive forces into the circuit breaker housing is located via a rotating support mounted in the circuit housing of the circuit breaker housing on the side of the circuit breaker housing and that the circuit breaker housing is provided on the end sides with connecting flanges for connecting further enclosed housing modules, moreover, as the following enclosed housing modules are at least two modules for deviating current leads of interrupt units into branch power inputs.

This embodiment of the switchgear basically involves, if possible, a little change in the tubular shape of the circuit breaker housing and assigning the remaining components related to the switchgear to separate enclosed housing modules that are adjacent on the end faces in a horizontal direction to the switch housing. In this case, it may be advisable to divide the circuit breaker body across asymmetrically, the outer diameters of the connecting flanges of the circuit breaker housing being smaller than the outer diameter of the circuit breaker housing. This makes it possible, for example, to make the axially shorter part of the circuit breaker case additionally in the form of a current transformer module, as is fundamentally known from FIG. 1 of DE 29806652 with part 1. In addition, another current transformer can be built into it at the other end of the circuit breaker case. - The circuit breaker housing can, however, also be transversally divided so that two axially shorter parts at both ends are connected to the axially longer part, the outer diameter of the connecting flange for connecting the next enclosed housing modules being smaller than the outer diameter of the switch housing, and that at least one of the axially shorter parts of the switch housing is made in the form of a current transformer module.

It is essential for the invention that, as further enclosed housing modules, there are generally two modules that serve to deflect the current leads of the poles of the circuit breaker into branches branching at an angle of connection of the lines. In this case, these deflecting modules may in a manner known per se comprise combined disconnector-earthing switches (DE 19632574 Al, DE 19825386 C1). In addition to the deflecting modules, a cable connection module or a tubular enclosed housing module or a horizontally extending three-phase busbar can be connected; at least one of the two deflecting modules can also be made in the form of a branching module with branching upward with diverging connections for bushing insulators of an outdoor installation. At the same time, a branch module with branching upward with diverging connections for outdoor bushing insulators can be installed on the second deflecting module. This is advisable, in particular, when the module of the high-speed grounding switch must still be connected to the deflecting modules. - The placement of variously made or having different mounting deflecting modules at both ends of the tubular housing of the circuit breaker can be done in different ways. Particularly suitable for practical applications, the arrangement is to position a vertically oriented deflecting module, made in the form of a disconnector-earthing module, at both ends of the circuit breaker case, and to install a branching module with branching upward with diverging connections for outdoor insulators on each deflecting module moreover, the outdoor connections of the corresponding branch module lie in a common, inclined But the vertical plane. Such a switchgear can replace, with space saving, switchgears that were previously constructed in covered rooms from components of still conventional, non-enclosed outdoor switchgears. - The new switchgear can also be used in a simple way in order to supply a single busbar passing in two planes one above the other with a sectional connection of the circuit breaker. In this case, a tubular enclosed casing module of a horizontally extending section of a three-phase busbar is connected to one diverting module of the switchgear, and another similar diverting module is connected to another vertically directed diverting module, which then serves to connect the second section of the busbar passing spatially parallel to the first section of the busbar, it is advisable through the housing pipe running parallel to the switchgear and the adjacent opening dropping module.

If the deflecting modules are made in the form of branching modules with branching upward with a divergence of connections for outdoor bushing insulators, then the branching modules can be made so that the outdoor bushing insulators lie on a common vertical plane. It is recommended that the branching module be made closer to the layout known from DE 29806652 so that each angular branching module is made in the form of a short hollow cylinder, from which a conically expanding region of the body radially branches and passes into three connecting flanges, and the connection areas of these connecting flanges are adjacent tangentially to the dividing circle passing concentrically to the axis of the branching module. - The connecting flanges can also be arranged so that the outdoor bushing insulators do not lie on a common plane, but diverge in different directions so that the free ends of the outdoor bushing insulators lie at the same height.

The location of further enclosed enclosure modules in addition to the diverting modules can be used both for embedding earthing switches or, respectively, combined earthing switches, and for embedding voltage transformer modules. The disconnector module or, respectively, the separator-earthing module can be located on one or both sides of the circuit breaker housing between the connecting flange of the circuit breaker housing and the angular deflecting module. The voltage transformer module is then expediently connected radially to the splitter module or, respectively, to the splitter-ground electrode module. Three-phase bushing insulators, which can also be made with fire-prevention partitions, are also expediently integrated into the modules named last.

The location of the subsequent closed housing modules on the end faces of the circuit breaker housing makes it possible to locate the circuit breaker drive spatially economically from the side, preferably under the circuit breaker housing. In this case, the connection of the circuit breaker drive with the moving parts of the interrupter units usually occurs through a rotating support located in the region of the casing of the circuit breaker housing, as is customary, for example, in outdoor circuit breakers. Advantageously, for this, the drive device is located on the mounting flange in the region of the enclosure of the circuit breaker housing and, through separate linkages for individual interrupting units, is connected to their separate movable contact parts, while the rotating support is then located in the transmission housing attached to the mounting flange, while as each lever transmission has a two-arm deflecting lever, the rotating support of which is supported in isolation on the shell of the switch housing. - The switch housing can be equipped with an additional mounting hole in its shell area.

The ability to change a new outdoor high-voltage switchgear can be improved even further if further modules are located between the connecting flange of the circuit-breaker housing and one of both deflecting modules, which are preferably in the form of branching modules with branching upward with a divergence of connections for outdoor bushings. of which at least one serves to deflect the current circuit in a horizontal plane by 90 °. This opens up the possibility of expanding the switchgear in such a way that two or more outdoor high voltage switchgears can be installed in the so-called H-circuit. In the case of further closed housing modules, we are talking mainly about the modules of the disconnector-earthing switch and about additional modules of the circuit breaker. In particular, it is advisable to provide, as further enclosed housing modules, three disconnector-earthing modules located at right angles to each other, the middle of which is connected to the second through an additional power switch module to the second, similarly designed and mirror-mounted high-voltage switchgear for outdoor installations. In this case, the so-called cross module, which is adopted in the case of gas-insulated high-voltage switchgear and which contains a three-phase combined disconnector-earthing switch, which is known, for example, is suitable as a module for deviating the current circuit in a horizontal plane by 90 ° from the German utility model 29806211.9. Specially for this crossover module, an additional voltage transformer module can be flanged.

To modify the invention, it is possible to position the module for deflecting the current circuit 90 ° in a horizontal plane not between the switch housing and one of the two corner branching modules, but to flange axially to the corner branching modules.

The embodiment of the outdoor high-voltage switchgear according to the invention also makes it possible to use the correspondingly designed device either as a longitudinal connection for connecting transformers during an overhead line or a busbar with gas insulation or as a transverse connection for introducing a double overhead electrical network into a transformer station.

Examples of the implementation of a new high-voltage switchgear outdoor installation are presented in figures 1-17.

1 and 2 show a first exemplary embodiment with two deflecting modules made in the form of branching modules, side view and front view;

FIGS. 3 and 4 are an embodiment of FIG. 1 for a switch housing with a flanged drive device, with an image of a drive circuit;

5 is a variant to figure 1 with the housing of the switch according to figure 3;

FIG. 6 is a second embodiment of FIG. 1, here with cable connection modules flanged to the deflecting modules;

Fig.7 is a third variant to Fig.1, here with a deflecting module for attaching a horizontally extending section of a closed busbar;

Fig. 8 is a fourth embodiment of Fig. 1, in which the switchgear is designed as a series connection during a closed busbar;

Fig. 9 is a fifth embodiment of Fig. 1, here with a branching module mounted on a deflecting module;

figure 10 is a sixth embodiment of figure 1, here with two branching modules mounted on deflecting modules, bushing insulators of the outdoor installation of which are located obliquely relative to the verticals;

11 is a switchgear with several power switches and with deflecting modules assigned to the power switches for deflecting the current circuit by 90 ° in the horizontal plane for implementing the so-called H-circuit;

Fig.12-15 - various modifications of the switchgear according to Fig.11;

Fig - H-diagram with two cable outgoing lines;

17 and 18 is an H-diagram made in the form of a double branch.

Figures 1 and 2 show an outdoor high-voltage switchgear in which the switch housing 1 is horizontally lying on the chassis 2. The switch housing 1 is asymmetrically divided transversely so that there is a longer part of the housing 11 and a shorter part of the housing 12. Both parts of the housing equipped with a connecting flange 13 or 14, respectively, the outer diameter of the corresponding connecting flange being less than the outer diameter of the switch housing 1. In the switch housing It positions the not represented manner, preferably a triangle, three interrupter unit. The case of the switch can be oval if necessary. - Part of the housing 12 can simultaneously serve as a closed housing module for receiving a current transformer, as is known from DE 29805945 U.

A closed housing module 4 is flanged to the case of the circuit breaker 1 or, respectively, to the part of the housing 12, in which case we are talking about an angular branching module for deflecting the current leads of the poles of the power switch into outdoor branching bushings 45 with a divergence. In this case, the closed housing module, made in the form of a short hollow cylinder 41, goes into a conically-expanding region of the housing 42, which ends in three connecting flanges 43. The connection plane of these lnyh flanges lie tangentially to the pitch circle 44, and this pitch circle arranged concentrically to the axis of the splitter module and thus to the axis 15 of the switch housing 1. In the present embodiment, the outdoor bushings 45 are together in a vertical plane.

A second corner junction module 4 is located at the other end of the high voltage switchgear. Between this second branch module 4 and the connecting flange 13 of the housing part 11 there is a closed housing module 5, which in a known manner accommodates a combined disconnector-earthing switch, not shown in more detail. A similar switch is known in principle (DE 3608482 C2, EP 0128377 A2) and is also described in the older patent application (DE 19816360.6). The closed housing module 5 further comprises a radially located connecting flange 51 to which the voltage transformer 6 is flanged. - A similar closed housing module 5 can also be located between the housing part 12 and the corresponding angular junction module 4. - In the simplest case, the high-voltage switchgear consists mainly of only from the case of the switch 1, containing the interruptive blocks of the power switch, and two flange modules 4 flanged on the side.

Under the switch housing 1 there is also a cabinet 3, which is mounted on the frame 2 and which, together with the control of the switches and the device, accommodates a drive device (not shown in more detail) for driving movable parts of the interrupt units located in the switch housing 1. For this part of the lever drive through the housing shell switch 1 or, respectively, through a flange located in the region of the shell is pivotally connected to the moving parts of the interrupt blocks.

Figure 3 shows the circuit breaker module 25, the circuit breaker case of which is divided across so that two axially shorter parts of the case 15 and 16 at both ends are assigned to the axially longer part 17. The parts of the case 15 and 16 are made similar and, by the way, serve as modules of the current transformer, and accordingly it is possible to distinguish the area of the secondary terminals 76. Parts of the housing 15 and 16 serve simultaneously as transitional parts from the tubular part of the housing 17 to adjacent closed housing modules, The connecting flange facing the part of the housing 17 has a larger external diameter than the connecting flange corresponding to the adjacent closed housing module.

Inside the housing part 17, the outlines of the pole parts 26 and 27 of one of the three poles of the power switch are indicated, with each pole of the power switch through the hollow support insulator 28 or, respectively, 29 resting on the tubular wall of the housing of the housing part 17. The pole part 26 is in this case a cross member 77 is assigned to the flange 18. A housing 19 that accommodates the deflecting drive is flanged to the housing flange 18, and according to FIG. 4 is provided with a carrier flange 34 for the drive device 35. The drive device 35 includes a spring drive 36, which, through the deflecting lever 37 and the link 38, acts on the deflecting lever 39. The rotating support of this deflecting lever is so mounted in the housing 19 that its one link arm is inside the housing 19. A vertically movable link 70 is pivotally connected to this link arm. each provided in the housing of the switch 17 having a movable contact part of the poles of the circuit breaker through respectively a communication element 78 to a deflecting arm 71, which is mounted with its rotating support 82 in the pole housing details 26 and which, for its part, drives the axially movable contact part 74 of the pole piece 26 through the oscillating first link 72 and the second axially guided link 73. The second link 73 is mounted sliding for this purpose on a horizontal guide rod 75 and receives a pivot bearing for first traction 72.

Figure 5 shows a view of a switchgear that contains only a power switch module 25 with housing parts 15, 16 and 17, and also, respectively, at each end of this power switch module, a closed housing module in the form of a branching module 4 with upward branching connections for bushing outdoor installation 45.

According to Fig.6, the circuit breaker module 25 with housing parts 15, 16 and 17 on both sides is assigned a deflecting module 60 or 61, respectively, which deflects the current circuit 90 ° down and is simultaneously made in the form of a combined disconnector-earthing switch and is additionally equipped with a quick-acting earthing switch 64. A cable connection module 46 is respectively flanged to these diverting modules. The diverting module 60 is further assigned a voltage transformer 6.

Fig. 7 shows a circuit breaker module 25 to which a rejection module is connected at one end, which is designed as a branching module 4 and carries outdoor bushing insulators 45. A voltage transformer 6 is connected axially to this rejection module. - At the other end of the circuit breaker a deflecting module 47 is located, which deflects the current circuit by 90 ° in the horizontal plane and is designed to connect a three-phase closed busbar.

According to Fig. 8, the circuit breaker module 25 at the right end is assigned a deflecting module 47 for connecting a three-phase closed busbar; at the same time, a voltage transformer 6 is flanged to this diverting module. At the left end of the circuit breaker module there is a diverting module 48, which deflects the current circuit vertically upward by 90 °. A similar module 48 is mounted on it, to which the extension module 7 is horizontally adjacent to it in the form of a three-phase closed busbar. On this extension module there is a deflection module 47, which deflects the current circuit in the horizontal direction by 90 ° and serves to connect the busbar. Also, this second diverting module 47 carries a voltage transformer 6. - In this embodiment of the invention, the switchgear serves as a series connection during a closed single busbar.

According to Fig. 9, the deflecting module 60 located on the right side of the power switch module serves to deflect the current circuit upward by 90 ° and is simultaneously made in the form of a combined disconnector-earthing switch. A voltage transformer 6 is further flanged down to this deflecting module 60 and a fast-acting grounding switch 64 axially to the right. The deflecting module carries a branching module 49, which is provided with three connecting flanges, onto which the outdoor bushing insulators 45 are installed. installations lie in a common vertical plane.

According to figure 10 on the module of the circuit breaker 25 at each end there is a deflecting module 60 or, respectively, 61 for deflecting the current circuit upward by 90 °, and these deflecting modules are simultaneously made in the form of disconnectors-earthing switches. A branching module 54 is mounted on both deflecting modules, the connections 55 for the bushing insulators of the outdoor unit 45 lying in a generally inclined plane relative to the vertical. - A voltage transformer 6 is also flanged to the deflection module 60, as well as a high-speed grounding switch 64.

11 shows an outdoor high-voltage switchgear in which two switchgears according to FIG. 1 are arranged parallel to each other, wherein each switchgear consists mainly of a power switch module 25, a disconnector-earthing switch 50, or 51, respectively, and two angular branching modules 30 and 31 or, respectively, 32 and 33. A closed housing module 60 or, respectively, 61, which serves to deflect the circuit, is connected to both modules 31 and 33 horizontal current at 90 °. For this, the modules 60 and 61 are made in the form of combined modules of disconnector-earthing switches, as they are known from the prior art. A voltage transformer 6 is installed on each module 60 or 61, respectively. - Both modules 60 and 61 are interconnected via a third module of the circuit breaker 25, which is connected on one side directly to the module 61 and, on the other hand, through an extension module 7 to the module 60 .

According to Fig. 12, the switchgear according to Fig. 11 can, for the same function, be designed so that the branching modules 30 and 31 are flanged to the deflecting modules 60 or 61, respectively. - According to Fig. 13, additional modules of the earthing switch can be located 62 or, respectively, 63.

According to FIG. 14, between three corner branching modules 30 and 32, there are three modules of the circuit breaker 25, and their location in place occurs using the deflecting modules 60 or 61, respectively. Non-branching modules are flanged to the deflecting modules 60 and 61, and three-phase sections laid in the pipe lines 8 or 9, respectively, which lead to the corresponding energy inputs.

Fig. 15 shows a complete so-called H-circuit in which two separate overhead electrical networks OHL 1 and OHL 2 through a first outdoor high-voltage switchgear with power switches 20 and 23, junction modules 30 and 31, earthing switch modules 50 and 52 as well as the deflecting module 60, as well as the second outdoor high-voltage switchgear with the corresponding modules 21, 24, 32, 33, 51, 53 and 61 through the transverse connection 7 and the power switch module 22 are connected to each other and anes in two matching transformers T ₁ and T _2.

The outdoor high-voltage switchgear according to Fig. 16 contains three power switch modules 25 that are U-shaped and connected to each other via combined disconnector-earthing switch modules 5, as well as two enclosed housing modules 60 and 61, the deflecting modules 60/61 deflect the current circuit in the horizontal direction by 90 ° and are made in the form of modules of disconnector-earthing switches. To the modules 5 directly adjacent to the middle power switch module 25, they are flanged, respectively, by a deflecting module 48, which serves to deflect the horizontally passing current circuit downward by 90 ° and to which the cable connection modules, not shown in more detail, are flanged.

17 and 18 show (front view and top view) two overhead electrical networks OHL 1 and OHL 2 to which a high-voltage double-branch switchgear is connected. At the same time, a branch module 4 is connected to each overhead electric network first through the bushing insulators of the outdoor unit 45, which serves to deflect the current circuit in a horizontal plane, and to which is adjacent a deflecting module 60 or, respectively, 61 to deflect the current circuit in the horizontal plane by 90 °. This deflecting module 60 is also made in the form of an integrated disconnector-earthing module.

From the modules 60 or 61, through the closed sections of the lines laid in the pipe 75, it goes to a T-shaped closed housing module 65, which is equipped with an integrated angular disconnector-earthing module and which is simultaneously connected to another deflecting module 4. From the closed housing modules 65 goes through the closed section of the lines 76 laid in the pipe to the corresponding module of the circuit breaker 25, directly to which or through the intermediate connection of the serial disconnector-earthing switch 5 ene splitter module 56 or respectively 57 which is provided with a branching with discrepancies up connections for the outdoor bushings 45. bushings for outdoor installation can be connected transformer or a further airbag electric network. Alternatively, connection of a cable system using an appropriate deflection module may also be considered.

Claims (23)

1. A closed, gas-insulated high-voltage switchgear for outdoor installation in a lying or, accordingly, horizontal design, moreover, several phase conductors of a multiphase alternating current network, in which a plurality of breaker blocks of the power switch are parallel to each other, are located inside one closed case of the device a tubular switch housing, in which to said interruption blocks are on both sides at an angle to the longitudinal axis of the switch housing branch connections of lines are connected, and in which the switch housing (1) is located on the support frame (2) and the drive device (3) for driving the moving parts of the interrupt units is connected to the switch case, characterized in that the drive device (3) is located on the side from the case of the switch (1), provides the introduction of drive forces into the case of the switch (1) through the rotating support (81) located in the region of the shell of the case of the switch, and the case of the switch (1) is provided with connecting flanges (13, 14) made with the possibility of connecting closed housing modules (4, 5), and at least two deflecting modules (4) are used as closed housing modules, which allow the current leads of the interrupt units to deviate into branch connections of the lines (42, 43, 45). 2. The outdoor high-voltage switchgear according to claim 1, characterized in that the switch housing (1) is asymmetrically transversely divided (11, 12), the outer diameters (d) of the connecting flanges being smaller than the outer diameter (D) of the switch housing. 3. The outdoor high-voltage switchgear according to claim 2, characterized in that the axially shorter part (12) of the switch housing (1) is made in the form of a current transformer module. 4. The outdoor high-voltage switchgear according to claim 1, characterized in that the switch housing is transversely divided so that two axially shorter parts (15, 16) at both ends are connected to an axially longer part (17), the outer diameter (d) the connecting flange for connecting the following closed housing modules is smaller than the outer diameter (D) of the circuit breaker housing, and at least one of the axially shorter parts (15, 16) of the circuit breaker housing is made in the form of a transformer module then a. 5. High-voltage switchgear for outdoor installation according to any one of claims 1 to 4, characterized in that the drive device (35, 19) is mounted on a mounting flange (18) in the region of the shell of the switch housing (17) and through separate linkages for individual interruptions blocks are associated with their movable contact parts (74), and the rotating support (81) is located in the gear housing (19) attached to the mounting flange and each lever transmission has a two-arm deflecting lever (71), the rotating support (82) of which is supported (26 , 77) a hollow support insulator (28) on the switch housing shell. 6. High-voltage switchgear for outdoor installation according to any one of claims 1 to 5, characterized in that at least one of the deflecting modules is made in the form of a disconnector-earthing module (60, 61). 7. High-voltage outdoor switchgear according to any one of claims 1 to 6, characterized in that a three-pole cable connection module (46) is connected to at least one of the two deflecting modules (60). 8. The outdoor high-voltage switchgear according to claim 7 with a deflecting module carrying a cable connection module, characterized in that a tubular enclosed casing module of a horizontally extending three-phase busbar is connected to the second deflecting module (47). 9. The high-voltage switchgear of the outdoor installation according to any one of claims 1 to 6, characterized in that at least one of the two deflecting modules is made in the form of a branching module (4) with branching upward, diverging connections for outdoor bushing insulators (45) . 10. The outdoor high-voltage switchgear according to claim 9, with a first deflecting module made in the form of a branching module, characterized in that a branching module (49) is installed on the second deflecting module (60) with branching upward, diverging connections for outdoor bushing insulators installations (45). 11. The outdoor high-voltage switchgear according to claim 9, with a first deflecting module made in the form of a branching module (4), characterized in that a tubular enclosed casing module of a horizontally passing three-phase busbar is connected to the second deflecting module (47). 12. The high-voltage switchgear of the outdoor installation according to any one of claims 9 to 11, characterized in that the connections for the outdoor bushing insulators (42, 43, 44) lie in a common vertical plane. 13. The high-voltage switchgear of an outdoor installation according to claim 12, characterized in that each deflecting module made in the form of a branching module (4) is made in the form of a short hollow cylinder (41), from which a conically expanding region of the housing (42) radially branches off and passes into a plurality of connecting flanges (43), the connection areas of these connecting flanges adjoining tangentially to the pitch circle (44) extending concentrically to the axis of the branching module. 14. High-voltage outdoor switchgear according to any one of claims 1 to 6, characterized in that a tubular enclosed housing module of a horizontally extending three-phase busbar is connected to the deflecting module (47), and connected to the other, vertically oriented deflecting module (48) from above a similar deflecting module (48) for connecting a second busbar extending parallel to the first busbar. 15. High-voltage switchgear for outdoor installation according to any one of claims 1 to 14, characterized in that a voltage transformer module (6) is additionally connected to one of the two deflecting modules (60, 61). 16. High-voltage switchgear for outdoor installation according to any one of claims 1 to 5, characterized in that between the connecting flange (13) of the switch housing (1) and the deflecting module (4) there is a closed housing module (5) for accommodating disconnectors or, respectively , combined disconnectors, earthing switches. 17. The outdoor high-voltage switchgear according to claim 16, characterized in that a voltage transformer module (6) is connected to the disconnector module or, respectively, the disconnector-earthing module (5). 18. The outdoor high-voltage switchgear according to claim 6, with two vertically oriented deflecting modules made in the form of disconnector-earthing modules, characterized in that a branching module (54) with branching up is installed on each deflecting module (60, 61), diverging connections for bushing insulators of the outdoor unit (45), and the connections of the outdoor unit (55) of the corresponding branch module lie in a common plane inclined relative to the vertical. 19. A high-voltage switchgear of an outdoor installation according to claim 9, with two deflecting modules made in the form of branching modules, equipped with branching, diverging connections for bushings of the outdoor installation, characterized in that between the connecting flange (13, 14) of the switch housing ( 25) and one of two deflecting modules (31, 33) contains several additional enclosed housing modules, of which at least one (60, 61) serves to deflect the current circuit in a horizontal plane ty at 90 °. 20. The outdoor high-voltage switchgear according to claim 19, characterized in that the additional enclosed housing modules are earthing switch modules (60, 61, 62, 63, 50, 51) and power switch modules (21, 22, 23, 24 ), and at least one module of the disconnector-earthing switch is made with the possibility of lateral connection of an additional module of the power switch (22) (H-circuit). 21. The high-voltage switchgear of an outdoor installation according to claim 20, characterized in that on both sides of the circuit breaker (25), respectively, are the first and second module of the disconnector-earthing switch (5, 60; 5, 61), and to the first module of the disconnector- a grounding module (5) is connected to the cable connection module, and to the second module of the disconnector-earthing switch (60, 61) is the next circuit breaker (25) with a deflecting module made in the form of a branching module (4) for branching upwards with a divergence of bushing insulators installation (45). 22. The outdoor high-voltage switchgear according to claim 19, with a 90 ° deflecting module made in the form of a disconnector-earthing module, characterized in that additional closed housing modules are connected to a branch module connected through a 90 ° deflecting module, of which at least one is made in the form of a disconnector-earthing module with a horizontal 90 ° deflecting module, and at least one is made in the form of a branching module. 23. The outdoor high-voltage switchgear according to claim 19, characterized in that as additional enclosed housing modules there are three disconnector-earthing switch modules (50, 60, 62) arranged in series and oriented at right angles to each other, of which the middle ( 60) is configured to connect through an additional module of the power switch (22) with a second, similarly made and located mirror-image high-voltage switchgear for outdoor installations (21, 32, 33, 5 1, 61, 63).

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